rclone/cmd/cmount/fs.go

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// +build cmount
// +build cgo
// +build linux darwin freebsd windows
package cmount
import (
"os"
"path"
"runtime"
"sync"
"time"
"github.com/billziss-gh/cgofuse/fuse"
"github.com/ncw/rclone/cmd/mountlib"
"github.com/ncw/rclone/fs"
"github.com/pkg/errors"
)
const fhUnset = ^uint64(0)
// FS represents the top level filing system
type FS struct {
FS *mountlib.FS
f fs.Fs
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openDirs *openFiles
openFilesWr *openFiles
openFilesRd *openFiles
ready chan (struct{})
}
// NewFS makes a new FS
func NewFS(f fs.Fs) *FS {
fsys := &FS{
FS: mountlib.NewFS(f),
f: f,
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openDirs: newOpenFiles(0x01),
openFilesWr: newOpenFiles(0x02),
openFilesRd: newOpenFiles(0x03),
ready: make(chan (struct{})),
}
if noSeek {
fsys.FS.NoSeek()
}
if noChecksum {
fsys.FS.NoChecksum()
}
if readOnly {
fsys.FS.ReadOnly()
}
if pollInterval > 0 {
fsys.FS.PollChanges(pollInterval)
}
return fsys
}
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type openFiles struct {
mu sync.Mutex
mark uint8
nodes []mountlib.Noder
}
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func newOpenFiles(mark uint8) *openFiles {
return &openFiles{
mark: mark,
}
}
// Open a node returning a file handle
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func (of *openFiles) Open(node mountlib.Noder) (fh uint64) {
of.mu.Lock()
defer of.mu.Unlock()
var i int
var oldNode mountlib.Noder
for i, oldNode = range of.nodes {
if oldNode == nil {
of.nodes[i] = node
goto found
}
}
of.nodes = append(of.nodes, node)
i = len(of.nodes) - 1
found:
return uint64((i << 8) | int(of.mark))
}
// InRange to see if this fh could be one of ours
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func (of *openFiles) InRange(fh uint64) bool {
return uint8(fh) == of.mark
}
// get the node for fh, call with the lock held
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func (of *openFiles) get(fh uint64) (i int, node mountlib.Noder, errc int) {
receivedMark := uint8(fh)
if receivedMark != of.mark {
fs.Debugf(nil, "Bad file handle: bad mark 0x%X != 0x%X: 0x%X", receivedMark, of.mark, fh)
return i, nil, -fuse.EBADF
}
i64 := fh >> 8
if i64 > uint64(len(of.nodes)) {
fs.Debugf(nil, "Bad file handle: too big: 0x%X", fh)
return i, nil, -fuse.EBADF
}
i = int(i64)
node = of.nodes[i]
if node == nil {
fs.Debugf(nil, "Bad file handle: nil node: 0x%X", fh)
return i, nil, -fuse.EBADF
}
return i, node, 0
}
// Get the node for the file handle
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func (of *openFiles) Get(fh uint64) (node mountlib.Noder, errc int) {
of.mu.Lock()
_, node, errc = of.get(fh)
of.mu.Unlock()
return
}
// Close the node
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func (of *openFiles) Close(fh uint64) (errc int) {
of.mu.Lock()
i, _, errc := of.get(fh)
if errc == 0 {
of.nodes[i] = nil
}
of.mu.Unlock()
return
}
// lookup a Node given a path
func (fsys *FS) lookupNode(path string) (node mountlib.Node, errc int) {
node, err := fsys.FS.Lookup(path)
return node, translateError(err)
}
// lookup a Dir given a path
func (fsys *FS) lookupDir(path string) (dir *mountlib.Dir, errc int) {
node, errc := fsys.lookupNode(path)
if errc != 0 {
return nil, errc
}
dir, ok := node.(*mountlib.Dir)
if !ok {
return nil, -fuse.ENOTDIR
}
return dir, 0
}
// lookup a parent Dir given a path returning the dir and the leaf
func (fsys *FS) lookupParentDir(filePath string) (leaf string, dir *mountlib.Dir, errc int) {
parentDir, leaf := path.Split(filePath)
dir, errc = fsys.lookupDir(parentDir)
return leaf, dir, errc
}
// lookup a File given a path
func (fsys *FS) lookupFile(path string) (file *mountlib.File, errc int) {
node, errc := fsys.lookupNode(path)
if errc != 0 {
return nil, errc
}
file, ok := node.(*mountlib.File)
if !ok {
return nil, -fuse.EISDIR
}
return file, 0
}
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// Get the underlying openFile handle from the file handle
func (fsys *FS) getOpenFilesFromFh(fh uint64) (of *openFiles, errc int) {
switch {
case fsys.openFilesRd.InRange(fh):
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return fsys.openFilesRd, 0
case fsys.openFilesWr.InRange(fh):
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return fsys.openFilesWr, 0
case fsys.openDirs.InRange(fh):
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return fsys.openDirs, 0
}
return nil, -fuse.EBADF
}
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// Get the underlying handle from the file handle
func (fsys *FS) getHandleFromFh(fh uint64) (handle mountlib.Noder, errc int) {
of, errc := fsys.getOpenFilesFromFh(fh)
if errc != 0 {
return nil, errc
}
return of.Get(fh)
}
// get a node from the path or from the fh if not fhUnset
func (fsys *FS) getNode(path string, fh uint64) (node mountlib.Node, errc int) {
if fh == fhUnset {
node, errc = fsys.lookupNode(path)
} else {
var n mountlib.Noder
n, errc = fsys.getHandleFromFh(fh)
if errc == 0 {
node = n.Node()
}
}
return
}
// stat fills up the stat block for Node
func (fsys *FS) stat(node mountlib.Node, stat *fuse.Stat_t) (errc int) {
var Size uint64
var Blocks uint64
var modTime time.Time
var Mode os.FileMode
switch x := node.(type) {
case *mountlib.Dir:
modTime = x.ModTime()
Mode = dirPerms | fuse.S_IFDIR
case *mountlib.File:
var err error
modTime, Size, Blocks, err = x.Attr(noModTime)
if err != nil {
return translateError(err)
}
Mode = filePerms | fuse.S_IFREG
}
//stat.Dev = 1
stat.Ino = node.Inode() // FIXME do we need to set the inode number?
stat.Mode = uint32(Mode)
stat.Nlink = 1
stat.Uid = uid
stat.Gid = gid
//stat.Rdev
stat.Size = int64(Size)
t := fuse.NewTimespec(modTime)
stat.Atim = t
stat.Mtim = t
stat.Ctim = t
stat.Blksize = 512
stat.Blocks = int64(Blocks)
stat.Birthtim = t
// fs.Debugf(nil, "stat = %+v", *stat)
return 0
}
// Init is called after the filesystem is ready
func (fsys *FS) Init() {
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defer fs.Trace(fsys.f, "")("")
close(fsys.ready)
}
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// Destroy is called when it is unmounted (note that depending on how
// the file system is terminated the file system may not receive the
// Destroy call).
func (fsys *FS) Destroy() {
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defer fs.Trace(fsys.f, "")("")
}
// Getattr reads the attributes for path
func (fsys *FS) Getattr(path string, stat *fuse.Stat_t, fh uint64) (errc int) {
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defer fs.Trace(path, "fh=0x%X", fh)("errc=%v", &errc)
node, errc := fsys.getNode(path, fh)
if errc == 0 {
errc = fsys.stat(node, stat)
}
return
}
// Opendir opens path as a directory
func (fsys *FS) Opendir(path string) (errc int, fh uint64) {
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defer fs.Trace(path, "")("errc=%d, fh=0x%X", &errc, &fh)
dir, errc := fsys.lookupDir(path)
if errc == 0 {
fh = fsys.openDirs.Open(dir)
} else {
fh = fhUnset
}
return
}
// Readdir reads the directory at dirPath
func (fsys *FS) Readdir(dirPath string,
fill func(name string, stat *fuse.Stat_t, ofst int64) bool,
ofst int64,
fh uint64) (errc int) {
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itemsRead := -1
defer fs.Trace(dirPath, "ofst=%d, fh=0x%X", ofst, fh)("items=%d, errc=%d", &itemsRead, &errc)
node, errc := fsys.openDirs.Get(fh)
if errc != 0 {
return errc
}
dir, ok := node.(*mountlib.Dir)
if !ok {
return -fuse.ENOTDIR
}
items, err := dir.ReadDirAll()
if err != nil {
return translateError(err)
}
// Optionally, create a struct stat that describes the file as
// for getattr (but FUSE only looks at st_ino and the
// file-type bits of st_mode).
//
// FIXME If you call host.SetCapReaddirPlus() then WinFsp will
// use the full stat information - a Useful optimization on
// Windows.
//
// NB we are using the first mode for readdir: The readdir
// implementation ignores the offset parameter, and passes
// zero to the filler function's offset. The filler function
// will not return '1' (unless an error happens), so the whole
// directory is read in a single readdir operation.
fill(".", nil, 0)
fill("..", nil, 0)
for _, item := range items {
name := path.Base(item.Obj.Remote())
fill(name, nil, 0)
}
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itemsRead = len(items)
return 0
}
// Releasedir finished reading the directory
func (fsys *FS) Releasedir(path string, fh uint64) (errc int) {
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defer fs.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
return fsys.openDirs.Close(fh)
}
// Statfs reads overall stats on the filessystem
func (fsys *FS) Statfs(path string, stat *fuse.Statfs_t) (errc int) {
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defer fs.Trace(path, "")("stat=%+v, errc=%d", stat, &errc)
const blockSize = 4096
fsBlocks := uint64(1 << 50)
if runtime.GOOS == "windows" {
fsBlocks = (1 << 43) - 1
}
stat.Blocks = fsBlocks // Total data blocks in file system.
stat.Bfree = fsBlocks // Free blocks in file system.
stat.Bavail = fsBlocks // Free blocks in file system if you're not root.
stat.Files = 1E9 // Total files in file system.
stat.Ffree = 1E9 // Free files in file system.
stat.Bsize = blockSize // Block size
stat.Namemax = 255 // Maximum file name length?
stat.Frsize = blockSize // Fragment size, smallest addressable data size in the file system.
return 0
}
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// Open opens a file
func (fsys *FS) Open(path string, flags int) (errc int, fh uint64) {
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defer fs.Trace(path, "flags=0x%X", flags)("errc=%d, fh=0x%X", &errc, &fh)
file, errc := fsys.lookupFile(path)
if errc != 0 {
return errc, fhUnset
}
rdwrMode := flags & fuse.O_ACCMODE
var err error
var handle mountlib.Noder
switch {
case rdwrMode == fuse.O_RDONLY:
handle, err = file.OpenRead()
if err != nil {
return translateError(err), fhUnset
}
return 0, fsys.openFilesRd.Open(handle)
case rdwrMode == fuse.O_WRONLY || (rdwrMode == fuse.O_RDWR && (flags&fuse.O_TRUNC) != 0):
handle, err = file.OpenWrite()
if err != nil {
return translateError(err), fhUnset
}
return 0, fsys.openFilesWr.Open(handle)
case rdwrMode == fuse.O_RDWR:
fs.Errorf(path, "Can't open for Read and Write")
return -fuse.EPERM, fhUnset
}
fs.Errorf(path, "Can't figure out how to open with flags: 0x%X", flags)
return -fuse.EPERM, fhUnset
}
// Create creates and opens a file.
func (fsys *FS) Create(filePath string, flags int, mode uint32) (errc int, fh uint64) {
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defer fs.Trace(filePath, "flags=0x%X, mode=0%o", flags, mode)("errc=%d, fh=0x%X", &errc, &fh)
leaf, parentDir, errc := fsys.lookupParentDir(filePath)
if errc != 0 {
return errc, fhUnset
}
_, handle, err := parentDir.Create(leaf)
if err != nil {
return translateError(err), fhUnset
}
return 0, fsys.openFilesWr.Open(handle)
}
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// Truncate truncates a file to size
func (fsys *FS) Truncate(path string, size int64, fh uint64) (errc int) {
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defer fs.Trace(path, "size=%d, fh=0x%X", size, fh)("errc=%d", &errc)
node, errc := fsys.getNode(path, fh)
if errc != 0 {
return errc
}
file, ok := node.(*mountlib.File)
if !ok {
return -fuse.EIO
}
// Read the size so far
_, currentSize, _, err := file.Attr(true)
if err != nil {
return translateError(err)
}
fs.Debugf(path, "truncate to %d, currentSize %d", size, currentSize)
if int64(currentSize) != size {
fs.Errorf(path, "Can't truncate files")
return -fuse.EPERM
}
return 0
}
func (fsys *FS) Read(path string, buff []byte, ofst int64, fh uint64) (n int) {
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defer fs.Trace(path, "ofst=%d, fh=0x%X", ofst, fh)("n=%d", &n)
// FIXME detect seek
handle, errc := fsys.openFilesRd.Get(fh)
if errc != 0 {
return errc
}
rfh, ok := handle.(*mountlib.ReadFileHandle)
if !ok {
// Can only read from read file handle
return -fuse.EIO
}
data, err := rfh.Read(int64(len(buff)), ofst)
if err != nil {
return translateError(err)
}
n = copy(buff, data)
return n
}
func (fsys *FS) Write(path string, buff []byte, ofst int64, fh uint64) (n int) {
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defer fs.Trace(path, "ofst=%d, fh=0x%X", ofst, fh)("n=%d", &n)
// FIXME detect seek
handle, errc := fsys.openFilesWr.Get(fh)
if errc != 0 {
return errc
}
wfh, ok := handle.(*mountlib.WriteFileHandle)
if !ok {
// Can only write to write file handle
return -fuse.EIO
}
// FIXME made Write return int and Read take int since must fit in RAM
n64, err := wfh.Write(buff, ofst)
if err != nil {
return translateError(err)
}
return int(n64)
}
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// Flush flushes an open file descriptor or path
func (fsys *FS) Flush(path string, fh uint64) (errc int) {
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defer fs.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
handle, errc := fsys.getHandleFromFh(fh)
if errc != 0 {
return errc
}
var err error
switch x := handle.(type) {
case *mountlib.ReadFileHandle:
err = x.Flush()
case *mountlib.WriteFileHandle:
err = x.Flush()
default:
return -fuse.EIO
}
return translateError(err)
}
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// Release closes the file if still open
func (fsys *FS) Release(path string, fh uint64) (errc int) {
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defer fs.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
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of, errc := fsys.getOpenFilesFromFh(fh)
if errc != 0 {
return errc
}
handle, errc := of.Get(fh)
if errc != 0 {
return errc
}
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_ = of.Close(fh)
var err error
switch x := handle.(type) {
case *mountlib.ReadFileHandle:
err = x.Release()
case *mountlib.WriteFileHandle:
err = x.Release()
default:
return -fuse.EIO
}
return translateError(err)
}
// Unlink removes a file.
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func (fsys *FS) Unlink(filePath string) (errc int) {
defer fs.Trace(filePath, "")("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(filePath)
if errc != 0 {
return errc
}
return translateError(parentDir.Remove(leaf))
}
// Mkdir creates a directory.
func (fsys *FS) Mkdir(dirPath string, mode uint32) (errc int) {
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defer fs.Trace(dirPath, "mode=0%o", mode)("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(dirPath)
if errc != 0 {
return errc
}
_, err := parentDir.Mkdir(leaf)
return translateError(err)
}
// Rmdir removes a directory
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func (fsys *FS) Rmdir(dirPath string) (errc int) {
defer fs.Trace(dirPath, "")("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(dirPath)
if errc != 0 {
return errc
}
return translateError(parentDir.Remove(leaf))
}
// Rename renames a file.
func (fsys *FS) Rename(oldPath string, newPath string) (errc int) {
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defer fs.Trace(oldPath, "newPath=%q", newPath)("errc=%d", &errc)
oldLeaf, oldParentDir, errc := fsys.lookupParentDir(oldPath)
if errc != 0 {
return errc
}
newLeaf, newParentDir, errc := fsys.lookupParentDir(newPath)
if errc != 0 {
return errc
}
return translateError(oldParentDir.Rename(oldLeaf, newLeaf, newParentDir))
}
// Utimens changes the access and modification times of a file.
func (fsys *FS) Utimens(path string, tmsp []fuse.Timespec) (errc int) {
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defer fs.Trace(path, "tmsp=%+v", tmsp)("errc=%d", &errc)
node, errc := fsys.lookupNode(path)
if errc != 0 {
return errc
}
var t time.Time
if tmsp == nil || len(tmsp) < 2 {
t = time.Now()
} else {
t = tmsp[1].Time()
}
var err error
switch x := node.(type) {
case *mountlib.Dir:
err = x.SetModTime(t)
case *mountlib.File:
err = x.SetModTime(t)
}
return translateError(err)
}
// Mknod creates a file node.
func (fsys *FS) Mknod(path string, mode uint32, dev uint64) (errc int) {
defer fs.Trace(path, "mode=0x%X, dev=0x%X", mode, dev)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Fsync synchronizes file contents.
func (fsys *FS) Fsync(path string, datasync bool, fh uint64) (errc int) {
defer fs.Trace(path, "datasync=%v, fh=0x%X", datasync, fh)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Link creates a hard link to a file.
func (fsys *FS) Link(oldpath string, newpath string) (errc int) {
defer fs.Trace(oldpath, "newpath=%q", newpath)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Symlink creates a symbolic link.
func (fsys *FS) Symlink(target string, newpath string) (errc int) {
defer fs.Trace(target, "newpath=%q", newpath)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Readlink reads the target of a symbolic link.
func (fsys *FS) Readlink(path string) (errc int, linkPath string) {
defer fs.Trace(path, "")("linkPath=%q, errc=%d", &linkPath, &errc)
return -fuse.ENOSYS, ""
}
// Chmod changes the permission bits of a file.
func (fsys *FS) Chmod(path string, mode uint32) (errc int) {
defer fs.Trace(path, "mode=0%o", mode)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Chown changes the owner and group of a file.
func (fsys *FS) Chown(path string, uid uint32, gid uint32) (errc int) {
defer fs.Trace(path, "uid=%d, gid=%d", uid, gid)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Access checks file access permissions.
func (fsys *FS) Access(path string, mask uint32) (errc int) {
defer fs.Trace(path, "mask=0%o", mask)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Fsyncdir synchronizes directory contents.
func (fsys *FS) Fsyncdir(path string, datasync bool, fh uint64) (errc int) {
defer fs.Trace(path, "datasync=%v, fh=0x%X", datasync, fh)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Setxattr sets extended attributes.
func (fsys *FS) Setxattr(path string, name string, value []byte, flags int) (errc int) {
return -fuse.ENOSYS
}
// Getxattr gets extended attributes.
func (fsys *FS) Getxattr(path string, name string) (errc int, value []byte) {
return -fuse.ENOSYS, nil
}
// Removexattr removes extended attributes.
func (fsys *FS) Removexattr(path string, name string) (errc int) {
return -fuse.ENOSYS
}
// Listxattr lists extended attributes.
func (fsys *FS) Listxattr(path string, fill func(name string) bool) (errc int) {
return -fuse.ENOSYS
}
// Translate errors from mountlib
func translateError(err error) (errc int) {
if err == nil {
return 0
}
cause := errors.Cause(err)
if mErr, ok := cause.(mountlib.Error); ok {
switch mErr {
case mountlib.OK:
return 0
case mountlib.ENOENT:
return -fuse.ENOENT
case mountlib.ENOTEMPTY:
return -fuse.ENOTEMPTY
case mountlib.EEXIST:
return -fuse.EEXIST
case mountlib.ESPIPE:
return -fuse.ESPIPE
case mountlib.EBADF:
return -fuse.EBADF
case mountlib.EROFS:
return -fuse.EROFS
}
}
fs.Errorf(nil, "IO error: %v", err)
return -fuse.EIO
}